JPH0646470B2 - Rotating head type magnetic recording / reproducing device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a rotary head type magnetic recording / reproducing apparatus (hereinafter referred to as a VTR), and an object thereof is to reproduce an excellent still image.

As is well known, in a helical scan type VTR, if reproduction is performed with the magnetic tape stopped, a still image can be reproduced. However, since the scanning locus of the rotary head on the magnetic tape when the tape is stopped is different from the recording locus, one recording locus cannot be accurately scanned. Therefore, in the conventional helical scan method, in order to reproduce a still image, Japanese Patent Application No. 53-7604
As seen in No. 5, after running the tape until it is in the vertical blanking section near the head switching point,
It used a means to stop it. However, when the above-mentioned means is used in the field still method for reproducing a still image using the same azimuth head, it is sufficient to run the tape until the noise band is within the vertical blanking section near the head switching point. There is a drawback that it is not possible to obtain a sufficiently satisfactory and stable still image.

This drawback will be described.

By using heads with the same azimuth angle, the same track can be reproduced, and still images can be reproduced without blurring on the screen. If the tape recorded by using the field still method is simply stopped, a noise portion is generated in the central portion of the television screen due to a reduction in reproduction output in many cases, depending on the tape stop position. If you move the tape a little further in this direction from this state, the noise part moves toward the bottom of the TV screen. When the tape is further fed from the state where this noise part remains at the bottom of the TV screen, the reproducing head can trace many parts of the recording track, the reproduction output is large, and almost no noise appears. If the tape can be stopped reliably in this state, a stable still image with very little noise can be obtained, but in the above-mentioned conventional example in which the tape is stopped when the noise part comes near the vertical sync signal, the noise part is displayed on the TV screen. It will stop in the state left at the bottom of. Moreover, even if the noise detection level and the feeding method were examined, the detected noise portion became extremely small or became unstable, and the stopping position of the tape could not be stopped accurately.

The present invention eliminates such drawbacks, and at the time of reproducing a still image, automatically detects on which track the head is scanning, and thereafter, the tape is run by a fixed amount,
The present invention provides a magnetic recording / reproducing apparatus capable of reproducing a good still image by stopping the tape.

The feature of the present invention is that the position of the tape can be accurately detected by setting a certain position where noise can be reliably detected and detecting that a noise portion has come to that position, and By feeding a fixed amount of tape from the above, this makes it possible to reliably stop the tape at a position with very little noise in the field still system.

The operating principle of the present invention will be described below with reference to FIGS.

FIG. 1 is a schematic view of a cylinder equipped with a helical scan type VTR head. In the figure, 20 is an A head fixed to the cylinder, and 22 is a B head disposed in the cylinder at an angle of approximately 180 with the A head. Also, A
The head 20 and the B head 22 have different head gap angles (azimuths), and the A head 20 and the B head 22 are used during recording and normal reproduction. Reference numeral 21 is an A'head having the same azimuth as the A head 20, and is arranged in the vicinity of the B head 22 on the cylinder. And
When still picture reproduction (still) is performed, field still reproduction is performed using the A'head 21 and the A head 20.

FIG. 2 shows a recording track of a helical scan VTR and
The locus | trajectory of a video head at the time of still image reproduction is shown. As described above, since the A head 20 and the B head 22 shown in FIG. 1 are used during recording, azimuth recording is performed. Therefore,
Tracks a ₁ , a ₂ , a ₃ recorded on the A head 20 side ...
... are A head 20 and A'head 21, and tracks b ₁ , b ₂ , b ₃ recorded on the B head 22 side are B head 2
Can only be played on 2.

FIG. 3 shows the envelope of the head output at the time of reproducing the still image, and FIGS. 3 (a) and 3 (b) correspond to the reproduction loci A and B shown in FIG. 2, respectively. In the case of the locus A, there is no section where the envelope disappears. In the case of the locus B, there is a section in the screen where the envelope disappears. Fig. 2 (C)
Is a waveform when the head output is passed through a limiter.
The output waveform when AM detection of the signal of the waveform is the same figure
(D) By detecting the waveform shown in FIG. 9D, it is determined which track the head is currently reproducing. That is, the capstan motor (not shown) is rotated to run the tape until the pulse of the detection output shown in (d) of the figure has a certain phase relationship with the head switching pulse. After that, a certain amount of tape is run and the tape is stopped. By using this method, the tape is automatically recorded at the position where the head output envelope does not disappear (the position shown in Fig. 3 (a)), that is, the position where there is no pulse of the detection output shown in Fig. 3 (d). It is possible to reproduce a good still image by stopping the recording.

An embodiment of the present invention will be specifically described below with reference to FIGS. 4 and 5.

FIG. 4 is a block diagram of essential parts of a helical scan type VTR which is an embodiment of the present invention, and FIG. 5 is a waveform diagram of essential parts of the VTR.

Reference numeral 1 is a control signal input terminal of the capstan motor 5 in the normal reproduction state.

Reference numeral 2 is a control signal input terminal of the capstan motor 5 when reproducing a still image. Motor control signal 1 input from input terminal 1
The motor control signal 2 input from the input terminal 2 is set so as to slowly rotate the capstan motor 5.

Reference numeral 3 denotes a gate, which is turned on and off by a switching signal a between a reproduction (PLAY) mode and a still image reproduction (STILL) mode.
FF control is performed, and the cutoff state is set in the STILL mode.

4 is a motor drive circuit.

Reference numeral 6 denotes a gate, which is ON-OFF controlled by a switching signal a between the PLAY mode and the STILL mode.
The conductive state is set in the L mode, and the cutoff state is set in the PLAY mode.

Reference numeral 7 denotes a gate, which is ON-OFF controlled by a terminal signal f of a flip-flop (FF) 10, and f is Low.
When it is at a level, it is in a conductive state, and when it is at a high level, it is in a cutoff state.

Numeral 8 is a monostable multivibrator (MM), which makes the phase of the head switching pulse d (30 Hz) Δ
Shift by t.

Reference numeral 9 is a monostable multivibrator (MM), which makes the output signal of the MM8 a narrow pulse.

The clock signal e of the flip-flop (FF) 10 is Hi.
Only when the RESET signal g is at the gh level and the High level, the terminal signal f becomes High, and the terminal is held at High until the next clock signal is input.

Reference numeral 11 denotes a gate, which is ON / OFF controlled by a switching signal a for switching between the PLAY mode and the STILL mode.
In the LL mode, the conductive state is set, and in the PLAY mode, the cutoff state is set.

Reference numeral 12 is a noise band detection circuit. The envelope of the head output is applied to the limiter, and AM detection is performed.
Obtain the waveform shown in (d). The waveform is a pulse for detecting a section in which the envelope output is below a predetermined level.

Reference numeral 13 is a waveform shaper, which raises a narrow pulse at the beginning of the noise band signal.

Reference numeral 14 is a pulse generator, which changes from input Low to High.
Generates a fixed amount of pulses only when the action to

Reference numeral 15 denotes a gate, which is ON-OFF controlled by a switching signal a between PLAY and STILL, is in a conductive state in the STILL mode, and is in a cutoff state in the PLAY mode.

Next, the operation of this device will be described. When the VTR is in the normal reproduction mode, the motor control signal passes through the gate 3 from the input terminal 1 and controls and drives the capstan motor 5 via the motor drive circuit 4. When the switching signal a between the normal reproduction and the still image reproduction is switched to the STILL mode, the motor control signal 2 passes through the gate 6 and the gate 7 and passes through the motor drive circuit 4 until the gate 7 is turned off. , Controls and drives the capstan motor 5.

The head switching pulse (30 Hz) d according to the rotation phase of the rotary head passes through MM8 and MM9 and becomes a pulse e of a narrow width delayed by Δt from the head switching. The head output signal j becomes a pulse h having a narrow width in the waveform shaping circuit 13. In the PLAY mode, the gate 11 and the gate 15 are in the cutoff state. The pulse g has no signal. Therefore, the pulse f is at low level. When the signal a is switched from the PLAY mode to the STILL mode, the pulse f is Low until the phases of the pulse e and the pulse g match. Therefore, at this time, the pulse h becomes the signal g. The pulse e and the signal g are compared in phase by the FF 10. That is, when the signal a is switched from the PLAY side to the STILL side, the signal f is detected when the phase of the pulse e corresponding to the phase of head switching and the phase of the pulse g corresponding to the phase of the noise band coincide with the pulse g. Becomes High level. When the signal f becomes High level, the signal f is added to the pulse h through the gate 11. Signal g is Hi
It becomes gh level. The signal a switches to the PLAY side again,
The signal f is held at the high level until the gate 11 is turned off. When the signal f becomes High level,
The gate 7 is cut off, and the capstan motor 5
It is driven only by the pulse generated by the pulse generator 14. When the signal f becomes High level, the pulse generator 14 generates a pulse of a constant time width, drives the capstan motor 5 through the motor drive circuit 4 by a constant amount, and then stops the capstan motor 5. . The amount of pulses generated by the pulse generator 14 is set so that the tape runs until the noise band disappears.

As described above, according to the present invention, the tape can be automatically stopped at the position where a good still image is obtained.

[Brief description of drawings]

FIG. 1 is a schematic view of a cylinder to which a video head is attached for explaining the principle of operation of the present invention, and FIG. 2 is a schematic view showing a tape pattern of the same helical scan VTR and a head locus during reproduction of a still image, FIG. 3 is a waveform diagram showing the envelope waveform of the head output and the noise band detection pulse waveform corresponding to the head locus of FIG. 2, and FIG. 4 is a block diagram of the essential parts of the VTR which is an embodiment of the present invention. The figure is a waveform diagram of input / output signals of respective parts of the VTR. 1 ... motor control signal input terminal, 2 ... motor control signal input terminal, 3 ... gate, 4 ... motor drive circuit,
5 ... Capstan motor, 6 ... Gate, 7 ... Gate, 8 ... Monomulti, 9 ... Monomulti, 10 ... Flip-flop, 11 ... Gate, 12 ... Noise band detection circuit, 13 ... ... Waveform shaper, 14 ... Pulse generator, 15 ... Gate.

Claims (1)

[Claims] 1. A capstan control means for switching a capstan to a low speed drive when switching from a normal re-correction state to a still image reproduction, and a period in which a level of an envelope of reproduction output of a rotary head is below a predetermined detection level. And a phase comparison means for obtaining a logical product output of the pulse and a pulse formed by delaying the head switching pulse of the rotary head for a predetermined time, and a level discrimination means And a capstan stopping means for stopping the low-speed driven capstan by a capstan stop signal, and a capstan for further rotating the capstan by a fixed amount by a pulse of a constant width generated by the stop signal, and then stopping the capstan. Phase shifting means and multiple heads with the same azimuth angle for field still reproduction. Preparative rotary head type magnetic recording and reproducing device comprising the.